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Mobile Application Porting
Published in Jithesh Sathyan, Anoop Narayanan, Navin Narayan, K V Shibu, A Comprehensive Guide to Enterprise Mobility, 2016
Jithesh Sathyan, Anoop Narayanan, Navin Narayan, K V Shibu
Qt Webkit is a port of Webkit over the Qt platform. Currently, the Qt Webkit compiles and runs on Windows, Mac OS X, Symbian, and Linux (including Maemo and Meego). It relies on the public APIs of Qt. Hence, it can be used across platforms that have support for Qt. Nokia provides the Qt development kit for creating rich apps for the Symbian platform. There are a number of web-based application frameworks that are written as embedded dynamic web sites to support multiple mobile platforms and at the same time leverage native platform features. The advantage of a dynamic web page is that the content or layout of the page is not static, and it is dynamically created based on a combination of parameters such as content, user preferences, user interaction (e.g., web games), or context (such as parametric customization). Some other major players, to name a few, in providing web-based application framework are iUI (iui-js.org), QuickConnectFamily (quickconnect-family.org), Rhodes (rhomobile.com), iPFaces (ipfaces.org), Jmango (j-mango.com/web), Appcelerator Titanium (appcelerator.com), and NEXT (http://nextinterfaces.com/).
The World Wide Web
Published in Akshi Kumar, Web Technology, 2018
Web sites can be further categorized as static and dynamic sites. A static web site is composed of web pages with content that remains constant. A static web site may consist of plain text or rich media. However, on visiting a static site, you will see the same content at all times regardless of the time of visit. On the other hand, a dynamic web site updates itself frequently depending on a set of parameters. In other words, a dynamic web site’s content is renewed every time a user visits the site. A dynamic web page is created using a wide range of software and languages, such as JSP, ASP, PHP, Python, Perl, and so on.
Application of Human-Computer Interaction Technology in Remote Language Learning Platform
Published in International Journal of Human–Computer Interaction, 2023
On the basis of the above architecture design, the interactive technology of the language learning system is analyzed and designed. In the implementation of system interaction function, the user can input data through the browser, and the browser can also use the graphical interface to present the data processing results to the user; The control function of presentation layer is implemented by SpringMVC(SpringWebMVC) as the controller of the framework, and uses (JavaServerPages, dynamic web page technology) technology to generate the view of data processing results. The business logic layer is used to realize all the functions of the system. The persistence layer uses Hibernate (open source object relational mapping framework) framework and Spring JDBC (Spring Java Database Connectivity Standard) to realize the interaction between business logic layer and data layer, as shown in Figure 5:
Development of a Cyber-Physical framework for monitoring and teleoperation of a CNC lathe based on MTconnect and OPC protocols
Published in International Journal of Computer Integrated Manufacturing, 2018
Alberto José Álvares, Luiz Eduardo Santos de Oliveira, Joao Carlos Espindola Ferreira
Sahin and Bolat (2009) used a distributed architecture for OPC (DOPC) to perform monitoring and remote control of different web-based devices. Local control architectures developed at various points enable communication with each other and with a remote control point on a dynamic web page built using Active Server Pages (ASP). Fernandes, Torrisi, and Brandao (2009) used a transport technology with the gateway function (OPC Server for HTTPs), called CyberOPC, to devise an architecture to perform remote tuning of industrial control systems using the Internet, meeting acceptable security and performance requirements.
Approaches and tools for user-driven provenance and data quality information in spatial data infrastructures
Published in International Journal of Digital Earth, 2023
Julia Fischer, Lukas Egli, Juliane Groth, Caterina Barrasso, Steffen Ehrmann, Heiko Figgemeier, Christin Henzen, Carsten Meyer, Ralph Müller-Pfefferkorn, Arne Rümmler, Michael Wagner, Lars Bernard, Ralf Seppelt
A common understanding is crucial for thematic terms as well as for quality indicators. Therefore, we built a register of geodata quality indicators. We initially expressed a subset of the geodata quality indicators that are described in ISO 19157 (ISO 2013) with the Data Quality Vocabulary (DQV) and made them available in a triplestore database. A dynamic web page requests the triplestore and presents the register in human-readable form. The page is hosted in our CKAN instance including visualizations and a form to provide feedback or to propose new indicators.